WHITE PAPER:
This white paper discusses an integrated approach for easily managing the lifecycle of encryption keys. It also explains how organizations can feel more confident about encrypting mission-critical data across the enterprise, in the cloud and beyond.

WHITE PAPER:
This white paper explores the results of a survey of more than 6 million IT professionals that aimed to discover how companies across the globe handle data in motion and other IT security issues. The results made one thing apparent: Data traffic encryption is a mess.

WHITE PAPER:
As a proactive measure, the NIST has recommended that organizations eliminate 1024-bit RSA certificates in favor of stronger keys. Learn about the upcoming change in key lengths and find tips for managing your transition to using stronger certificates.

WHITE PAPER:
This white paper discusses the imperative need for always on SSL, and the steps you can take to deliver end-to-end protection for your users. It also includes detailed accounts of four organizations that are leading the way with always on SSL in a cooperative effort to make the internet more secure.

WHITE PAPER:
Access control is a necessity. Read this paper to identify a line of identity and access solutions that address these problems inside the perimeter and, ultimately, your enterprise's bottom line and reputation.

WHITE PAPER:
This business whitepaper focuses on the challenges facing midsize businesses who are looking to provide business continuity and minimized downtime. It also highlights the benefits of HP Just Right IT secure access and business continuity solutions.

WHITE PAPER:
This crucial white paper discusses the shift of encryption within Layer 2, examining the drivers behind it and how you can best apply encryption to get the most protection for your critical data.

WHITE PAPER:
In this resource, explore the evolving trends in the public sector landscape, and what this means for information governance and security. Learn how crucial it is to prevent data leakage for the sake of regulations and citizens' trust.

DATA ENCRYPTION DEFINITION (continued): obtaining the contents of transmissions. (Technically, a code is a means of representing a signal without the intent of keeping it secret; examples are Morse code and ASCII.) Simple ciphers include the substitution of letters for numbers, the rotation of letters in the alphabet, and the "scrambling" of voice signals by inverting the sideband frequencies. More complex ciphers work according to sophisticated computer algorithms that rearrange the data bits in digital signals.In order to easily recover the contents of an encrypted signal, the correct decryption key is required. The key is an algorithm Data Encryption definition sponsored by SearchSecurity.com, powered by WhatIs.com an online computer dictionary

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